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Regensburg 2022 – wissenschaftliches Programm

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CPP: Fachverband Chemische Physik und Polymerphysik

CPP 24: 2D Materials 5 (joint session HL/CPP/DS)

CPP 24.8: Vortrag

Mittwoch, 7. September 2022, 11:30–11:45, H36

Capacitively and inductively coupled excitons in bilayer MoS2 — •Lukas Sponfeldner1, Nadine Leisgang1, Shivangi Shree2, Ioannis Paradisanos2, Kenji Watanabe3, Takashi Taniguchi4, Cedric Robert2, Delphine Lagarde2, Andrea Balocchi2, Xavier Marie2, Iann C. Gerber2, Bernhard Urbaszek2, and Richard J. Warburton11Department of Physics, University of Basel — 2Université de Toulouse, INSA-CNRS-UPS, LPCNO — 3Research Center for Functional Materials, National Institute for Materials Science — 4International Center for Materials Nanoarchitectonics, National Institute for Materials Science

Exciton-exciton couplings in semiconductors lead to a plethora of phenomena such as nonlinear optical effects and quantum condensation. Transition-metal dichalcogenides constitute a versatile platform to study these effects as the excitons are very robust and their couplings can be controlled by exploiting their spin and valley properties.
Here, we probe exciton-exciton couplings in gated-homobilayer MoS2. Using a driven-coupled oscillator model it is shown that the measured optical susceptibility reveals both the magnitude and the phase of the coupling constants. The interlayer excitons (IE) and intralayer B-excitons couple via a 0-phase (capacitive) coupling; the IE and the intralayer A-excitons couple via a π-phase (inductive) coupling. Using the IE as a sensor, the A-B intravalley exchange coupling is determined, a result which is also relevant for a monolayer. Finally, we realize a bright and highly tunable lowest-energy momentum-direct exciton at high electric fields.

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